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The evolutionary history of X iphophorus fish and their sexually selected sword: a genome‐wide approach using restriction site‐associated DNA sequencing
Author(s) -
Jones Julia C.,
Fan Shaohua,
Franchini Paolo,
Schartl Manfred,
Meyer Axel
Publication year - 2013
Publication title -
molecular ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.619
H-Index - 225
eISSN - 1365-294X
pISSN - 0962-1083
DOI - 10.1111/mec.12269
Subject(s) - biology , phylogenetic tree , evolutionary biology , xiphophorus , genome , phylogenetics , clade , monophyly , maximum parsimony , restriction site , population , dna sequencing , genetics , gene , restriction enzyme , demography , fishery , sociology , fish <actinopterygii>
Next‐generation sequencing ( NGS ) techniques are now key tools in the detection of population genomic and gene expression differences in a large array of organisms. However, so far few studies have utilized such data for phylogenetic estimations. Here, we use NGS data obtained from genome‐wide restriction site‐associated DNA ( RAD ) (∼66000 SNPs) to estimate the phylogenetic relationships among all 26 species of swordtail and platyfish (genus X iphophorus ) from C entral A merica. Past studies, both sequence and morphology‐based, have differed in their inferences of the evolutionary relationships within this genus, particularly at the species‐level and among monophyletic groupings. We show that using a large number of markers throughout the genome, we are able to infer the phylogenetic relationships with unparalleled resolution for this genus. The relationships among all three major clades and species within each of them are highly resolved and consistent under maximum likelihood, B ayesian inference and maximum parsimony. However, we also highlight the current cautions with this data type and analyses. This genus exhibits a particularly interesting evolutionary history where at least two species may have arisen through hybridization events. Here, we are able to infer the paternal lineages of these putative hybrid species. Using the RAD ‐marker‐based tree we reconstruct the evolutionary history of the sexually selected sword trait and show that it may have been present in the common ancestor of the genus. Together our results highlight the outstanding capacity that RAD sequencing data has for resolving previously problematic phylogenetic relationships, particularly among relatively closely related species.